Vehicle interior member having air bag door portion and method for molding the same

ABSTRACT

A vehicle interior member with an air bag includes an air bag door portion that can be made to be invisible and of improved construction. The vehicle member includes a skin molded to a substrate. The skin includes a tear line formed by a diagonal cut portion. In the vicinity of a lateral tear line of the skin side tear line, a projecting portion is provided on a lower mold to form a groove portion of the substrate along the diagonal cut portion so as to intercept a flow of a resin from the cutting direction of the diagonal cut portion. Therefore, as the resin flows in a reverse direction to the cutting direction of the diagonal cut portion at an opening portion thereof, a flow of the resin into a polypropylene foam layer of a three-layer skin through the opening portion of the diagonal cut portion can be suppressed. This prevents the polypropylene foam layer from being melted and damaged.

INCORPORATION BY REFERENCE

The disclosure of Japanese Patent Application No. HEI 10-119718 filed onApr. 28, 1998 including the specification, drawings and abstract isincorporated herein by reference in its entirety.

BACKGROUND OF THE INVENTION

1. Field of Invention

The present invention relates to a vehicle interior member having an airbag door portion, and more particularly to a door portion of an air bagsystem formed in the vehicle interior member, such as an instrumentpanel. The present invention further relates to a method for molding thesame.

2. Description of the Related Art

Conventionally a vehicle interior member having an air bag door portionsuch as the instrument panel is known and disclosed, for example, inJapanese Patent Application Laid-open No. HEI 9-156443.

In this instrument panel having the air bag door portion, a three-layerskin including a foam layer as an intermediate layer is disposed on asurface (design face) of a resin substrate constituting a body portionand the air bag door portion of the instrument panel.

However, in order to mold the product having the air bag door portion ofthe instrument panel invisible (designed to have a relief such as a tearline invisible), the following process is required. A three-layer skin72 having a cut portion 70 for a tear line at a skin side formed on aback surface thereof is set in an upper mold 74 of molds 74 and 76.Then, a resin 78 is injected into the mold as shown in FIG. 9. In thiscase, when the resin 78 moves along an injection direction (a directionshown by the arrow X in FIG. 9), a foam layer 72A of the three-layerskin 72 is compressed by the resin 78 toward the upper mold 74 (adirection shown by the arrow Y in FIG. 9). As a result, each thicknessof two sections of the three-layer skin 72 separated by the cut portion70 becomes different. Thus, the resin 78 in a molten state flows throughthe cut portion 70 into the foam layer 72A that is not compressed. As aresult, the foam layer 72A is damaged to form, for example, anundesirable recess on the design face of the product, which degrades thequality of the appearance. For this reason, the conventional technologyhas never achieved an air bag door portion that is invisible.

SUMMARY OF THE INVENTION

In view of these problems, it is an object of the invention to provide avehicle interior member having an air bag door portion that prevents afoam layer from being melted and damaged, has an invisible air bag doorportion, and improves design even after setting a three-layer skinformed with a cut portion forming a skin side tear line in a mold andinjection insert molding a substrate.

To achieve the above and other objects, according to a first aspect ofthe present invention, there is provided a vehicle interior memberhaving an air bag door portion including a three-layer skin, a bodyportion substrate formed of a hard resin material and injection moldedtogether with the three-layer skin, and an air bag door portionsubstrate formed of the same hard resin material as the body portion andinjection molded integrally with the body portion substrate. The air bagdoor portion substrate has a groove portion forming a substrate sidetear line that is formed during the injection molding to define a shapeof a projecting portion formed on a mold and torn upon deployment of anair bag. The three-layer skin has a diagonal cut portion forming a skinside tear line that is formed to extend from a face of the three-layerskin, the face being close to the air bag door portion substrate, at apredetermined inclination angle such that an opening portion of thediagonal cut portion is directed substantially toward the groove portionforming the substrate side tear line.

Therefore, if the three-layer skin is set in the mold and then thethree-layer skin and the substrate of the body portion and the air bagdoor portion are integrally molded by injection molding, a resin flowfrom a cutting direction of the diagonal cut portion is suppressed by aprojecting portion formed on the mold to form the groove portion formingthe tear line at the substrate side. Accordingly, the resin flows in areverse direction to the cutting direction of the diagonal cut portionat the opening portion of the diagonal cut portion of the three-layerskin. As a result, even if the three-layer skin is compressed by theresin, each section separated by the diagonal cut portion may not becomea different thickness. Also, the resin flow into a foam layer of thethree-layer skin through the opening of the diagonal cut portion can besuppressed, thus preventing the foam layer from being melted anddamaged. Therefore, the air bag door portion can be made invisible andthe design can be improved. Also, the present invention can be easilyachieved by adjusting the incline angle of the diagonal cut portion ofthe three-layer skin and a thickness of the substrate at the grooveportion forming the tear line at the substrate side.

According to a second aspect of the present invention, there is provideda vehicle interior member having an air bag door portion including anair bag door portion having a three-layer skin and a substrate formed ofa hard resin and injection molded together with the three-layer skin,and a body portion to which the air bag door portion is fixed. The airbag door portion substrate has a groove portion forming a substrate sidetear line that is formed during the injection molding to define a shapeof a projecting portion formed on a mold and is torn upon deployment ofan air bag. The three-layer skin has a diagonal cut portion forming askin side tear line which is formed to extend from a face of thethree-layer skin, the face being close to the air bag door portionsubstrate, at a predetermined inclination angle such that an openingportion of the diagonal cut portion is directed toward the grooveportion forming the substrate side tear line.

Therefore, in addition to substantially the same advantages as achievedby the first aspect of the invention, the second aspect of the inventionachieves the following advantages. Materials for the skins andsubstrates of the air bag door portion and the body portion can beseparately and freely selected. Considering the design face, the skin ofthe air bag door portion skin and the skin of the air bag door portionmay be formed from the same material in order to make the air bag doorportion inconspicuous. The substrate of the air bag door portion and thesubstrate of the body portion substrate may be formed from differentkinds of hard resins in accordance with their performance requirements.

According to a third aspect of the present invention, there is provideda vehicle interior member based on the first or second aspect, in whichthe diagonal cut portion and the groove portion are positioned such thatan edge of the substrate of a passenger side portion which has been tornand deployed upon deployment of the air bag door is hidden by the skin.

Therefore, the edge of the substrate of a passenger side portion whichhas been torn and deployed upon deployment of the air bag door is hiddenby an end portion of the skin of the passenger side door portion thathas been torn and deployed upon deployment of the air bag door so thatthe edge is not exposed.

According to a fourth aspect of the invention, there is provided avehicle interior member having an air bag door portion including athree-layer skin, a body portion substrate formed of a hard resinmaterial and injection molded together with the three-layer skin, and anair bag door portion substrate formed of the same hard resin material asthe body portion substrate and injection molded integrally therewith.The three-layer skin has a diagonal cut portion forming a skin side tearline that has a cutting direction inclined in a direction substantiallyreverse to a flow direction of the hard resin during injection moldingof the body portion substrate and the air bag door portion substrate andis torn upon deployment of an air bag.

According to a fifth aspect of the invention, there is provided avehicle interior member based on the fourth aspect of the invention,wherein the skin side tear line and a substrate side tear line extend ina direction substantially parallel to the flow direction of the hardresin, and wherein the air bag door portion substrate has a thin portionthat is formed adjacent to the groove, the thin portion being positionedat a site facing an opening portion of the diagonal cut portion andextending along the opening portion of the diagonal cut portion in adirection substantially parallel to the flow direction of the hardresin.

Therefore, as the thin portion formed in the substrate substantiallyprevents the resin from flowing toward the opening portion of thediagonal cut portion, the direction of the resin flowing at the openingportion of the diagonal cut portion is in the reverse direction to thecutting direction of the diagonal cut portion. As a result, the resinflow into the foam layer of the three-layer skin through the openingportion of the diagonal cut portion can be suppressed, thus effectivelypreventing the foam layer from being melted and damaged.

According to a sixth aspect of the invention, there is provided avehicle interior member having an air bag door portion including an airbag door portion having a three-layer skin and a substrate formed of ahard resin and injection molded together with the three-layer skin, anda body portion to which the air bag door portion is fixed, wherein thethree-layer skin has a diagonal cut portion forming a skin side tearline that has a cutting direction inclined in a direction substantiallyreverse to a flow direction of the hard resin during injection moldingof the air bag door portion substrate and is torn upon deployment of anair bag.

According to a seventh aspect of the present invention, there isprovided a method for molding a vehicle interior member having an airbag door portion including the steps of: setting a three-layer skinhaving a diagonal cut portion with a cutting direction inclined relativeto a surface in a first mold; assembling the first mold and a secondmold; injecting a hard resin into a cavity defined by the three-layerskin and the second mold to form a substrate of an interior memberintegrally with the three-layer skin while controlling injection of thehard resin such that a flow direction of the hard resin is substantiallyopposite to the cutting direction of the diagonal cut portion; andcooling an integral molding of the three-layer skin and the substrateafter injecting the hard resin.

BRIEF DESCRIPTION OF THE DRAWINGS

FIG. 1 is an enlarged sectional view taken along line I—I in FIG. 3.

FIG. 2 is an enlarged sectional view taken along line II—II in FIG. 3.

FIG. 3 is a plan view of a back face of a vehicle interior member havingan air bag door portion according to an embodiment of the presentinvention.

FIG. 4 is an enlarged sectional view taken along line IV—IV in FIG. 5.

FIG. 5 is a perspective view of an instrument panel as the vehicleinterior member having the air bag door portion according to theembodiment of the present invention seen from a diagonally reardirection of a vehicle.

FIG. 6 is a sectional view illustrating a step of a method for moldingthe vehicle interior member having the air bag door portion according tothe embodiment of the invention, corresponding to FIG. 1.

FIG. 7 is a sectional view illustrating a step of a method for moldingthe vehicle interior member having the air bag door portion according tothe embodiment of the invention, corresponding to FIG. 2.

FIG. 8 is a sectional view of a vehicle interior member having an airbag door portion according to another embodiment of the invention.

FIG. 9 is a sectional view illustrating a step of a conventional methodfor molding a vehicle interior member having an air bag door portion.

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS

An embodiment of a vehicle interior member provided integrally with anair bag door portion of the present invention will be describedaccording to FIGS. 1 to 7.

In the drawings, the arrow FR shows a front direction of a vehicle andthe arrow UP shows an upward direction of the vehicle.

As shown in FIG. 5, an air bag system (partially shown in FIG. 4) isdisposed inward of the instrument panel 10 on a passenger seat side (theleft side in FIG. 5). The instrument panel 10 functions as the vehicleinterior member provided within the inside space of the vehicle.

As shown in FIG. 4, an air bag case 14 of an air bag system 12 is fixedto an instrument panel reinforcement (not shown), and an inflator 16 andan air bag 18 in a folded state are accommodated in the air bag case 14.

A portion of the instrument panel 10, which substantially faces the airbag case 14 constitutes an air bag door portion 20, and the otherportion of the instrument panel 10 constitutes a body portion 22.

A substrate 24 of the air bag door portion 20 and the body portion 22 isformed of PP (polypropylene) resin with a low specific gravity, such asa rigid resin with a coefficient of bending elasticity, for example,ranging from 1500 to 3000 Mpa. The aforementioned resin is obtained bybroying (a technique for producing macromolecular multicomponentmaterial expected to provide a synergistic effect) elastomer (rubber)and PP (polypropylene) and adding talc to form the composite andreinforced resin. The resin further exhibits impact-resistance,rigidity, and good flowability suitable for a product having a thinportion. The substrate 24 can also be formed of a hard resin selectedfrom PP resin, PC/ABS resin, PC/AES resin, PC/ASA resin, PC/ASiS resin,denatured PPO resin, PC/PBT resin, ABS resin, ABS resin, ASA resin, ASiSresin, PC resin, ASG resin, TPO resin, TPE resin, TPU resin, andPC/denatured PS resin.

Hinge portions 25 are respectively formed at a front end portion of thefront door portion 20A and the rear end portion of a rear door portion20B of the air bag portion 20. At the hinge portions 25, recessedportions are formed through a predetermined width in a front and reardirection on a back face of the substrate 24.

A three-layer skin 26 is disposed on a surface (design face) of thesubstrate 24. The three-layer skin 26 is formed of a barrier layer 26A,a foam layer 26B, and a skin layer 26C disposed from the substrate 24.In the present embodiment, the barrier layer 26A and the foam layer 26Bare made of the PP resin, and the skin layer 26C is made of PVC or TPOresin.

In the air bag system 12, when a sudden deceleration of the vehicle isdetected by a mechanical or electrical acceleration sensor and the like(not shown), the inflator 16 in the air bag case 14 is actuated toinflate the air bag 18 folded and accommodated in the air bag case 14toward the air bag door portion 20 of the instrument panel 10. The airbag 18 pushes the air bag door portion 20 of the instrument panel 10 soas to tear and deploy the air bag door portion 20 toward the passengerspace. As a known general structure can be applied to the air bag system12, specific descriptions of the air bag system 12 will be omitted inthis embodiment.

A substrate side tear line 34 is formed in the substrate 24 of the airbag door portion 20 and a skin side tear line 36 is formed in thethree-layer skin 26.

As shown in FIG. 3, the substrate side tear line 34 forms an H-shape inthe plan view including a lateral tear line 34A constitutingsubstantially a center portion of the air bag door portion 20 in a frontand rear direction, and a left and right pair of longitudinal tear lines34B and 34C constituting opposite end portions of the air bag doorportion 20 in a lateral direction.

A lateral tear line 36A of the skin side tear line 36 is formed to thefore of the lateral tear line 34A of the substrate side tear line 34 tobe substantially parallel therewith. Longitudinal tear lines 36B and 36Cof the skin side tear line 36 are formed at outer portions of the doorof the longitudinal tear lines 34B and 34C of the substrate side tearline 34 to be substantially parallel therewith.

As a result, upon deployment of the air bag, the substrate 24 of the airbag door portion 20 is torn along the substrate side tear line 34 andthe three-layer skin 26 is torn along the skin side tear line 36 to bedivided into two parts opened forward and rearward, respectively.

As shown in FIG. 1, the lateral tear line 36A of the skin side tear line36 is formed of a diagonal cut portion 38 extending diagonally forwardfrom the barrier layer 26A side (back face side) of the three-layer skin26 at a predetermined inclination angle θ1. The lateral tear line 34A ofthe substrate side tear line 34 is formed at a groove portion 40 whichis V-shaped in section such that a thickness of the substrate 24 becomesH1.

As shown in FIG. 2, the longitudinal tear line 36C of the skin side tearline 36 is formed as a diagonal cut portion 38 extending diagonallyoutward of the door from the barrier layer 26A side (back face side) ofthe three-layer skin 26 at a predetermined inclination angle θ1. Thelongitudinal tear line 34C of the substrate side tear line 34 is definedby a groove portion 40 formed such that the thickness of the substrate24 becomes H1 and a thin inner portion 44 with a thickness of H2 and awidth of L which is adjacent to the groove portion 40 and extendsoutward of the door to reach an opening portion 38A of the diagonal cutportion 38 (the thin inner portion 44 extends to pass the openingportion 38A in the embodiment). The longitudinal tear line 36B of theskin side tear line 36 and the longitudinal tear line 34B of thesubstrate side tear line 34 have similar constructions.

Next, a method for molding the instrument panel of the embodiment of thepresent invention will be described in detail.

First, as shown in FIG. 6, the three-layer skin 26 having a diagonal cutportion 38 for deployment of the air bag door portion is set in theupper mold 50 as a mold on the design side of the instrument panel. Theupper mold 50 and the lower mold 52 are assembled.

Next, a hard resin is injected through a predetermined different gate Aand B (see FIG. 5) to perform insert molding of the front door portion20A and the rear door portion 20B of the air bag door portion 20.

At this time, in the vicinity of the lateral tear line 36A of the skinside tear line 36, a projecting portion 52A for forming the grooveportion 40 in the substrate is formed on the lower mold 52 along thediagonal cut portion 38. The projecting portion 52A is formed in acutting direction (the right side shown in FIG. 6) of the openingportion 38A of the diagonal cut portion 38 and intercepts a flow of theresin 54 from the cutting direction (the right side shown in FIG. 6) ofthe diagonal cut portion 38. As a result, at the opening portion 38A ofthe diagonal cut portion 38 of the three-layer skin 26, the resin 56flows in a reverse direction (a direction shown by the arrow A in FIG.6) to the cutting direction of the diagonal cut portion 38.

As shown in FIG. 7, in the vicinity of the longitudinal tear line 36C ofthe skin side tear line 36, a projecting portion 52A for forming thegroove portion 40 in the substrate and a projecting portion 52B forforming a thin portion 44 in the substrate are formed on the lower mold52 along the diagonal cut portion 38. The projecting portion 52A isformed in a cutting direction (the right side shown in FIG. 7) as adirection of the opening portion 38A of the diagonal cutting portion 38to intercept a flow of the resin 54 from the cutting direction (theright side shown in FIG. 7) of the diagonal cut portion 38. Theprojecting portion 52B extends to pass the opening portion 38A of thediagonal cut portion 38 having a width L such that the resin can noteasily flow toward the diagonal cut portion 38 from the front and reardirection. As a result, at the opening portion 38A of the diagonal cutportion 38 of the three-layer skin 26, the resin 56 flows in a reversedirection (direction shown by the arrow A in FIG. 7) to the cuttingdirection of the diagonal cut portion 38.

Therefore, in the embodiment, if the three-layer skin 26 is compressedby the resin 56, a side face 38B of the diagonal cut portion 38 on anupstream side of the resin flow is brought into close contact with aside face 38C of the diagonal cut portion 38 on a downstream side of theresin flow. Therefore, a thickness difference in sections of the threelayer skin 26 divided by the diagonal cut portion 38 is hardly generatedcompared with the conventional art shown in FIG. 9. As a result, a flowof the resin 56 from the opening portion 38A of the diagonal cut portion38 into the foam layer 26B of the three layer skin 26 can beintercepted, thus preventing the foam layer 26B from being melted anddamaged. This allows the air bag door portion to be made invisible andthe design to be improved.

The present embodiment can easily be achieved by adjusting theinclination angle θ1 of the diagonal cut portion 38 of the three-layerskin 26, the thickness H1 of the substrate 24 of the groove portion 40,and the thickness H2 of the substrate 24 of the thin portion 44 for thesubstrate side tear line.

In the embodiment, as shown in FIG. 3, the lateral tear line 36A of theskin side tear line 36 is formed to the fore of the lateral tear line34A of the substrate side tear line 34 to be substantially paralleltherewith, and the longitudinal tear lines 36B and 36C of the skin sidetear line 36 are formed outward of the door of the longitudinal tearlines 34B and 34C of the substrate side tear line 34 to be substantiallyparallel therewith. In other words, the diagonal cut portion 38 for theskin side tear line 36 and the groove portion 40 for the substrate sidetear line 34 are shifted from each other such that an edge of thesubstrate 24 of the rear door portion 20B that is torn and deployed upondeployment of the air bag door portion is hidden by an end portion ofthe three-layer skin 26. As a result, the edge portion of the substrate24 of the rear door portion 20B which is torn and deployed at deploymentof the air bag door is not exposed.

Although the present invention has been specifically described accordingto specific embodiments, it will be clear to a person skilled in the artthat the present invention is not limited to the embodiments and variousother embodiments may be made within the scope of the invention. Forexample, the gates A and B are respectively disposed to the fore and tothe rear of the H-shaped tear line as shown in FIG. 5 in the aboveembodiments. The positions of the gates A and B, however, are notlimited to those in the embodiments, and the gates A and B may bedisposed on the left and right sides of the H-shaped tear line,respectively. In this case, the thin portion 44 is formed along thelateral tear line 34A parallel with the flow of the resin.

The present invention is not limited to the air bag door portion whichis divided into two sections opened in opposite directions in which thesubstrate side tear line 34 and the skin side tear line 36 are formedinto the H shape in the plan view as shown in FIG. 3. It may also beapplied to a vehicle interior member having an air bag door portion inwhich the substrate side tear line 34 and the skin side tear line 36form an angular U shape, X shape, or other shape in the plan view.

The present invention may also be applied to an instrument panel havingan air bag door portion in which a body portion and an air bag doorportion of the instrument panel are independent and injection moldedseparately, and then integrated together by using engaging claws, screwsor the like.

Although the above-described instrument panel 10 is formed by injectionmolding the substrate of the air bag door portion 20 and the substrateof the body portion 22, the invention is also applicable to aninstrument panel 100 having an air bag door portion as shown in FIG. 8wherein an air bag door portion 60 and a body portion 62 are separatelyformed by injection molding, and then joined by using engaging nails 64,screws and the like. In this case, a three-layer skin is formed by anair bag door portion skin 66 and a body portion skin 68. The instrumentpanel 100 can be formed as follows. First, the air bag door portion skin66 is set in an upper mold. After the upper mold is joined with a lowermold, a hard resin is injected into the cavity defined by the upper andlower molds, thereby forming an air bag door portion 60. Separately, thebody portion skin 68 having an opening at a site where the air bag doorportion will later be fitted is set in a mold, and a hard resin isinjected thereinto, thereby forming a body portion 62. The air bag doorportion 60 and the body portion 62 separately formed are joined byfitting the air bag door portion into the opening of the body portion,and fixing them via engaging nails 64, screws or the like. Since the airbag door portion 60 and the body portion 62 are separately formed, theinstrument panel 100 makes it possible to freely select materials forthe air bag door portion 60, the body portion 62, the skins 66, 68thereof, and substrates 80, 82 thereof Considering the design face, theair bag door portion skin 66 and the air bag door portion skin 68 may beformed from the same material in order to make the air bag door portion60 inconspicuous. The air bag door portion substrate 80 and the bodyportion substrate 82 may be formed from different kinds of hard resinsin accordance with their performance requirements.

The vehicle interior member having the air bag door portion of thepresent invention may also be applied to a door trim, a center pillargarnish, a steering wheel pad and the like, in addition to theinstrument panel. The resin may be filled through both the gates A andB, and may also be filled through a single gate either A or B.

What is claimed is:
 1. A vehicle interior member having an air bag doorportion comprising: a three-layer skin; a body portion substrate formedof a hard resin material and injection molded together with saidthree-layer skin; and an air bag door portion substrate formed of thesame hard resin material as said body portion and injection moldedintegrally with said body portion substrate, wherein said air bag doorportion substrate has a groove portion forming a substrate side tearline that is formed during said injection molding to define a shape of aprojecting portion formed on a mold and torn upon deployment of an airbag, said three-layer skin has a face close to said air bag door portionsubstrate, and said three-layer skin has a diagonal cut portion for askin side tear line that is formed to extend from said face of saidthree-layer skin at a predetermined inclination angle such that anopening portion of said diagonal cut portion is directed substantiallytoward the groove portion for said substrate side tear line.
 2. AVehicle interior member according to claim 1, wherein said diagonal cutportion and said groove portion are positioned are positioned such thata passenger-side edge of the air bag door portion substrate which hasbeen torn and deployed upon deployment of the air bag door is hidden bythe skin.
 3. A vehicle interior member according to claim 2, wherein thegroove portion forming said substrate side tear line extends in adirection of the width of a vehicle, and the diagonal cut portionforming said skin side tear line extends in a direction of the width ofthe vehicle at a predetermined interval from the groove portion formingsaid substrate side tear line to the front of the vehicle.
 4. A vehicleinterior member having an air bag door portion comprising: an air bagdoor portion having a three-layer skin, and a substrate formed of a hardresin and injection molded together with said three-layer skin; and abody portion to which said air bag door portion is fixed, wherein saidair bag door portion substrate has a groove portion forming a substrateside tear line that is formed during said injection molding to define ashape of a projecting portion formed on a mold and is torn upondeployment of an air bag, said three-layer skin has a face close to saidair bag door portion substrate, and said three-layer skin has a diagonalcut portion forming a skin side tear line that is formed to extend froma face of said three-layer skin at a predetermined inclination anglesuch that an opening portion of said diagonal cut portion is directedtoward the groove portion forming said substrate side tear line.
 5. Avehicle interior member according to claim 4, wherein said body portionincludes a skin having a design face formed of a same kind of materialas said three-layer skin and a substrate formed of a hard resin, saidbody portion having an opening to which said air bag door portion isfixed.
 6. A vehicle interior member according to claim 5, wherein saidskin of said body portion is a three-layer skin formed of a same kind ofmaterial as said three-layer skin of said air bag door portion and saidsubstrate of said body portion is formed of a hard resin different fromsaid hard resin of said substrate of said air bag door portion.
 7. Avehicle interior member according to claim 4, wherein said diagonal cutportion and said groove portion as positioned such that a passenger-sideedge of the substrate which has been torn and deployed upon deploymentof the air bag door is hidden by the skin.
 8. A vehicle interior memberaccording to claim 7, wherein the groove portion forming said substrateside tear line extends in a direction of the width of a vehicle, and thediagonal cut portion forming said skin side tear line extends in adirection in a direction of the width of the vehicle at predetermineinterval from the groove portion forming said substrate side tear lineto the front of the vehicle.
 9. A vehicle interior member having an airbag door portion comprising: a three-layer skin formed of an interiorlayer, an intermediate layer and an exterior layer; a body portionsubstrate formed of a hard resin material and injection molded togetherwith said three-layer skin; and an air bag door portion substrate formedof a same hard resin material as said body portion substrate andinjection molded integrally therewith, wherein said three-layer skin hasa diagonal cut portion forming a skin side tear line which has a cuttingdirection inclined in a direction substantially reverse to a flowdirection of the hard resin used during injection molding of said bodyportion substrate and said air bag door portion substrate and is tornupon deployment of an air bag, the diagonal cut portion including twosubstantially parallel walls that extend entirely through the interiorand intermediate layers and partially extend through the exterior layerof the three-layer skin.
 10. A vehicle interior member according toclaim 9, wherein said air bag door portion substrate has a groove for asubstrate side tear line that is spaced from an opening of said diagonalcut portion by a predetermined interval in said flow direction of thehard resin, and which is torn upon deployment of the air bag.
 11. Avehicle interior member according to claim 10, wherein said skin sidetear line and a substrate side tear line extend in a directionsubstantially parallel to said flow direction of the hard resin, andsaid air bag door portion substrate has a thin portion that is thinnerthan a panel portion of the air bag door portion and that is formedadjacent to said groove, said thin portion being positioned at a sitefacing an opening portion of said diagonal cut portion and extendingalong the opening portion of said diagonal cut portion in a directionsubstantially parallel to said flow direction of the hard resin.
 12. Avehicle interior member according to claim 9, wherein said hard resin isinjected in a front-to-rear direction relative to a vehicle to which thevehicle interior member is to be fit, each of said skin side tear lineand a substrate side tear line is formed in a generally “H” shaped tearline including a lateral tear line extending in a direction of a vehiclewidth and longitudinal tear lines each extending through a correspondingone of opposite end portions of said lateral tear line in thefront-to-rear direction relative to the vehicle, said diagonal cutportion forming said lateral tear line of said skin side tear line isspaced from a groove forming said lateral tear line of said substrateside tear line by a predetermined interval toward a vehicle front, andsaid diagonal cut portion forming each longitudinal tear line of saidskin side tear line is spaced from a groove forming a corresponding oneof said longitudinal tear lines of said substrate side tear line by apredetermined interval in an outward direction with respect to the airbag door portion.
 13. A vehicle interior member according to claim 12,wherein in said longitudinal tear lines, said air bag door portionsubstrate has a thin portion that is thinner than a panel portion of theair bag door portion and is formed adjacent to said groove forming saidsubstrate side tear line, said thin portion being positioned at a sitefacing an opening portion of said diagonal cut portion forming said skinside tear line and extending along the opening portion of said diagonalcut portion in a direction substantially parallel to said flow directionof the hard resin.
 14. A vehicle interior member having an air door bagportion, comprising: an air bag door portion having a three-layer skinand a substrate formed of a hard resin and injection molded togetherwith said three-layer skin, the three-layer skin including an interiorlayer, an intermediate layer and an exterior layer; and a body portionto which said air bag door portion is fixed, wherein said three-layerskin has a diagonal cut portion for a skin tear line that has a cuttingdirection inclined in a direction substantially reverse to a flowdirection of the hard resin during injection molding of said air bagdoor portion substrate and is torn upon deployment of an air bag, thediagonal cut portion including two substantially parallel walls thatextend entirely through the interior and intermediate layers and extendpartially through the exterior layer.
 15. A vehicle interior memberaccording to claim 14, wherein said air bag door portion substrate has agroove for a substrate side tear line that is spaced from an opening ofsaid diagonal cut portion by a predetermined interval in said flowdirection of the hard resin, and which is torn upon deployment of theair bag.
 16. A vehicle interior member according to claim 14, whereinsaid hard resin is injected in a front-rear direction relative to avehicle to which the vehicle interior member is to be fit, each of saidskin side tear line and a substrate side tear line is a generally “H”shaped tear line including a lateral tear line extending in a directionof a vehicle width and longitudinal tear lines each extending through acorresponding one of opposite end portions of said lateral tear line ina front-rear direction relative to the vehicle, said diagonal cutportion forming said lateral tear line of said skin side tear line isspaced from a groove forming said lateral tear line of said substrateside tear line by a predetermined interval toward a vehicle front, andsaid diagonal cut portion forming each longitudinal tear line of saidskin side tear line is spaced from a groove forming a corresponding oneof said longitudinal tear lines of said substrate side tear line by apredetermined interval in an outward direction with respect to the airbag door portion.
 17. A vehicle interior member according to claim 16,wherein in said longitudinal tear lines, said air bag door portionsubstrate has a thin portion that is thinner than a panel portion of theair bag door portion and is formed adjacent to said groove forming saidsubstrate side tear line, said thin portion being positioned at a sitefacing an opening portion of said diagonal cut portion forming said skinside tear line and extending along the opening portion of said diagonalcut portion in a direction substantially parallel to said flow directionof the hard resin.